Areas of Expertise

Space Technologies

1) Reduction of complexity related to the hardware and software redundancy in satellites
2) Reconfigurability of satellites
3) Increase and improvement of accuracy of onboard sensors
4) Lifetime of satellites
5) Bandwidth limitation (modulation and coding)
6) Cognitive techniques for satellite communications
7) New techniques and methods to reduce satellite signal interferences
8) Exploitation of space technologies for new civilian applications
9) Meet the needs of future space missions

Embedded Systems

1) Complexity of parallel architectures
2) Power calculation versus complexity of the algorithms
3) Reduction of audit time (new methods)
4) Optimization of test methods such as “Hardware-in-the-loop”
5) Improve the efficient use of material resources
6) Exploring the synergy between hardware and software architectures
7) Reliability architectures


1) Algorithms sensitivity GPS receivers
2) Integration Architectures for GNSS signals multistandard receivers
3) Problem of positioning inside buildings
4) management of the frequency spectrum, interference in the radio band navigation
5) Technologies of resistance to jamming and anti-jamming
6) Inertial navigation sensors with low cost (low end)
7) Data Fusion integration of GNSS and SBAS aid
8) High Precision Navigation (RTK, multi-RTK, etc.).
9) Treatment of GNSS signals wide band


1) Reduction Techniques “SWAP” (Space Weight and Power)
2) Integration of components “Commercial-off-the-shelf” (COTS) systems
3) Changing architectures: hardware redundancy to software redundancy
4) Design methods of critical systems
5) Accessibility / Data Management “glass-cockpit” Universal (flight test engineering)
6) Management of human factors in modern cockpits
7) Issues related to aerial surveillance systems (NextGen)
8) Modeling and Simulation of Avionics Systems
9) Fault Tolerance and certification issues